I am trying to visualize some values on a form. They range from 0 to 200 and I would like the ones around 0 be green and turn bright red as they go to 200.
Basically the function should return color based on the value inputted. Any ideas ?
Basically, the general method for smooth transition between two values is the following function:
function transition(value, maximum, start_point, end_point): return start_point + (end_point - start_point)*value/maximum
That given, you define a function that does the transition for triplets (RGB, HSV etc).
function transition3(value, maximum, (s1, s2, s3), (e1, e2, e3)): r1= transition(value, maximum, s1, e1) r2= transition(value, maximum, s2, e2) r3= transition(value, maximum, s3, e3) return (r1, r2, r3)
Assuming you have RGB colours for the s and e triplets, you can use the transition3 function as-is. However, going through the HSV colour space produces more "natural" transitions. So, given the conversion functions (stolen shamelessly from the Python colorsys module and converted to pseudocode :):
function rgb_to_hsv(r, g, b): maxc= max(r, g, b) minc= min(r, g, b) v= maxc if minc == maxc then return (0, 0, v) diff= maxc - minc s= diff / maxc rc= (maxc - r) / diff gc= (maxc - g) / diff bc= (maxc - b) / diff if r == maxc then h= bc - gc else if g == maxc then h= 2.0 + rc - bc else h = 4.0 + gc - rc h = (h / 6.0) % 1.0 //comment: this calculates only the fractional part of h/6 return (h, s, v) function hsv_to_rgb(h, s, v): if s == 0.0 then return (v, v, v) i= int(floor(h*6.0)) //comment: floor() should drop the fractional part f= (h*6.0) - i p= v*(1.0 - s) q= v*(1.0 - s*f) t= v*(1.0 - s*(1.0 - f)) if i mod 6 == 0 then return v, t, p if i == 1 then return q, v, p if i == 2 then return p, v, t if i == 3 then return p, q, v if i == 4 then return t, p, v if i == 5 then return v, p, q //comment: 0 <= i <= 6, so we never come here
, you can have code as following:
start_triplet= rgb_to_hsv(0, 255, 0) //comment: green converted to HSV end_triplet= rgb_to_hsv(255, 0, 0) //comment: accordingly for red maximum= 200 … //comment: value is defined somewhere here rgb_triplet_to_display= hsv_to_rgb(transition3(value, maximum, start_triplet, end_triplet))
You don't say in what environment you're doing this. If you can work with HSV colors, this would be pretty easy to do by setting S = 100 and V = 100, and determining H by:
H = 0.4 * value + 120
Converting from HSV to RGB is also reasonably easy.
[EDIT] Note: in contrast to some other proposed solutions, this will change color green -> yellow -> orange -> red.
extending upon @tzot's code... you can also set up a mid-point in between the start and end points, which can be useful if you want a "transition color"!
//comment: s = start_triplet, m = mid_triplet, e = end_triplet function transition3midpoint = (value, maximum, s, m, e): mid = maximum / 2 if value < mid return transition3(value, mid, s, m) else return transition3(value - mid, mid, m, e)
Looking through this wikipedia article I personally would pick a path through a color space, and map the values onto that path.
If you use linear ramps for Red and Green values as Peter Parker suggested, the color for value 100 will basically be puke green (127, 127, 0). You ideally want it to be a bright orange or yellow at that midpoint. For that, you can use:
Red = max(value / 100, 1) * 255 Green = (1 - max(value / 100, 1)) * 255 Blue = 0